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This course is aimed at applying system theory to the practical design of renewable electricity systems. It is primarily focused on technical design. Topics can include (but are not limited to) the design of renewable electricity systems and/or their components: generation, inverters, electricity storage devices, component or system protection and control, integrated off-grid and grid tied systems.
The course will be taught over 24 lecture hours (one two-hour session per week). Material will be delivered in lecture form, which includes the following topics:• Energy, electricity, emissions, environment and the thrust for renewable energy• Power electronic tools for the grid integration of renewable energy sources• Wind power, solar power, geothermal power, biomass and waste power• Energy storage and distributed generation• Relationships with Iwi, the role of our indigenous population on renewable energy projects In addition, time is allocated for group discussion of the lectured material and for working on the project.
The learning outcomes of ENEL667 are aligned with the outcome statement and graduate characteristics of the Master of Engineering Studies. ENEL667 is taught at Level 9 of the New Zealand Qualifications Framework (NZQF).Knowledge outcomesThis course provides highly specialized knowledge, some of which is at the forefront of knowledge, and a critical awareness of issues in the renewable energy field. This course builds on the knowledge base of students from previous undergraduate engineering study. It develops a deep theoretical knowledge in the area of renewable energy systems by applying systems theory to the practical design of renewable energy systems. This knowledge will be assessed through written, oral, self-assessment and critical review. Specific ability is also demonstrated in the skills and application assessment items. Upon completion of this course students will demonstrate the following knowledge outcomes:K1. Able to demonstrate an advanced understanding of the fundamental principles, and application of renewable energy system integration principles. K2. Able to describe behaviour of various renewable energy resources and energy storage systems.K3. Understand the importance of working with environment, including Maori, when designing renewable energy systems. SkillsStudents in this course develop and apply new skills and techniques to existing or emerging problems, and achieve mastery of study or practice to an advanced level. In detail, through practical experience (largely self-directed), the course will develop essential and cutting-edge research and professional skills. Students will be able to demonstrate the above knowledge outcomes through the application of the following skills:S1 Make informed judgments from the synthesis of data and information derived fromdiverse sources, primary and secondary, intending to improve and or betterunderstand renewable energy system theory and practiceIdentify, select, categorise, interpret and criticise background literature andother relevant informationObtain, organise, analyse, critically appraise and present original renewableenergy system dataS2 Deal creatively with complex, challenging and often ill-defined design challengesDescribe and defend a design idea and a detailed problem statement and derivea set of objectives for advanced non-trivial system designApply research skills needed to participate in group work effectively.Identify, apply and communicate a complex system modelling to solve theproblemCritically appraise and justify solution alternatives to a renewable energy systemdesignS3 Synthesise and present arguments work and communicate effectively with subjectexperts:Demonstrate effective scientific communication and writing skillsChoose, carry out and document a design project in various forms (specificationproposals, reports)Analyse and utilise feedback from advisers and peers to improve and revise ownworkRespond to questions on own work in a way that shows mastery of the contentand other related knowledge.Personal attributesThe key personal attributes that will be developed include problem-solving qualities of anadvanced engineering postgraduate, practical design skills, advanced modelling skills, workingeffectively on a new topic with others, and individually and written skills. Students will developtheir ability to apply creative and critical thinking to solve design challenges. Students will alsoappreciate the unique challenges for New Zealand engineers in working on renewable energyprojects concerning the Treaty of Waitangi obligations and Maori’s relationship with the land.Students in this course will independently apply highly specialised knowledge and skills withina discipline or professional practice.
This course will provide students with an opportunity to develop the Graduate Attributes specified below:
Critically competent in a core academic discipline of their award
Students know and can critically evaluate and, where applicable, apply this knowledge to topics/issues within their majoring subject.
Domestic fee $1,133.00
International Postgraduate fees
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
This course will not be offered if fewer than 5 people apply to enrol.
For further information see
Electrical and Computer Engineering